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NASA Moon Technology

Is NASA Planning To "Terraform" Part of the Moon? Not Quite 65

MarkWhittington writes: A story in Popular Science suggested that NASA is mulling a plan to "terraform" part of the moon. The term is more than a little misleading, as it implies making a portion of the moon livable for humans. The actual plan, being funded by the space agency as part of NASA's Innovative Advanced Concepts (NIAC) Program is exciting nevertheless. The idea is to deploy reflectors around the rim of the Shackleton Crater, a region at the moon's South Pole where ice is thought to exist in permanent shadows. The reflectors would focus light onto select areas to provide power for robotic explorers. In this manner, the robots would not have to be equipped with protection against the cold inside the crater and would not have to be powered by plutonium-fueled RTGs. Temperatures inside the shadowed regions of Shackleton plunge to minus 280 degrees Fahrenheit.
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Is NASA Planning To "Terraform" Part of the Moon? Not Quite

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  • by JoeMerchant ( 803320 ) on Wednesday July 08, 2015 @06:46PM (#50072811)

    Just hope they don't end up vaporizing away all the (currently solid) H2O before we can capture it.

    • Re:Fun stuff.... (Score:5, Informative)

      by viperidaenz ( 2515578 ) on Wednesday July 08, 2015 @06:59PM (#50072853)

      You could have RTFA and saw the bit where it says

      The strategy would be to send rovers into Shackleton, powered by the reflected solar light, and set up a kind of base of operations within the crater. Then the rovers would make forays into the darkened regions under battery power to prospect for ice. They would return to the illuminated spots to warm up and recharge. Later, the same arrangement would be made for mining robots, extracting the ice for use by human settlers.

      They don't plan on shining sunlight on the ice

      • Re:Fun stuff.... (Score:4, Interesting)

        by JoeMerchant ( 803320 ) on Wednesday July 08, 2015 @07:10PM (#50072879)

        I saw that bit - what I didn't see was hard data on where the ice actually is (because nobody knows), or any estimation of what the solar reflection into the crater will do to peak temperatures within the crater. With any luck at all, things won't be getting out of hand, better to try than not to try. But, if we are fortunate and the ice is deposited as thin frost on the cave entrances, we'll have to be careful to charge the rovers a good distance from the caves to avoid sublimating too much away (sublimation point of H2O in hard vacuum is 150K, or -123C / -190F). Even driving a "warm" rover into the cave might start the process...

      • by durrr ( 1316311 )

        Sounds like needless complexity when you could just put an RTG in the fucking rover instead.

        • Sounds like needless complexity when you could just put an RTG in the fucking rover instead.

          How is an RTG less complex than a reflector? RTGs involve handling plutonium isotopes. Oh, and those isotopes don't currently exist, but let's just forget about that for now. Assuming the proper isotopes did exist, preparing an RTG for launch is very expensive. If the launch is delayed, the RTG continues to generate heat and decay as it sits on the shelf. RTGs are heavy and require even heavier shielding. That raises lauch costs, and more importantly raises lunar landing difficulty and cost. RTGs gen

          • That raises lauch costs, and more importantly raises lunar landing difficulty and cost.

            Or you could just use a solar panel and a reflector.

            Because multiple launches are free and increase reliability...?

        • We are running out of fuel for RTGs and will not have any more until we start producing a lot of weapons grade Plutonium because the fuel is a byproduct of the process. It make a lot of sense to develop alternatives

  • by Anonymous Coward

    Sheesh guys, get with the times already.

  • by Anonymous Coward

    -280 f is -173.333 c.

  • by Anonymous Coward on Wednesday July 08, 2015 @08:15PM (#50073163)

    Mirrors? Really?
    WTF. Just make the damn plutonium-fueled RTG's happen instead.

    Yeah, I know:
    -Because: launching radioactive evilness will kill everybody. (This time, unlike the last 28+ times we have done it.)
    -Because: The DOE or whoever does not have enough refined PU238 these days. Boo Hoo, make some more, damn it.
    Are we a first world country with functioning space and nuclear energy programs or not? (Maybe we should outsource RTG's to SpaceX too? Once Elon Musk has some breeder reactors in the corporate fold he is pretty much ready to get the white cat, island fortress, and inscrutable henchmen. :) Why the hell not.)

    While we are at it, that is: sending mass up and mucking around on the rim of a permanently shadowed crater.
    Why don’t we send up some pipe, a thermal fluid, turbine, etc. with reservoirs on the sun side and shade side of the rim. Not sure how efficient a Stirling engine really is, but permanent shade and direct sun sound pretty ideal. We could even beam power to the damn rovers, making Nikola T. happy.

    Mirrors, uhg.

    • by tomhath ( 637240 ) on Wednesday July 08, 2015 @08:18PM (#50073171)
      It's Green Energy. They don't want to start Anthropogenic Lunar Warming
    • Mirrors? Really?
      WTF. Just make the damn plutonium-fueled RTG's happen instead.

      The sun will last longer than the plutonium.

      I guess when your only tool is a shotgun, everything starts to look like a clay pigeon.

      • The sun will last longer than the plutonium.

        The Pu will last longer than the rovers it's installed in. Your point?

        • The Pu will last longer than the rovers it's installed in. Your point?

          Isn't that a reason not to use Pu?

      • Will the reflectors last as long as the plutonium tho? Although there is no weather on the moon, there is still dust thrown up from activity on the surface (meteorites etc) which will coat the reflectors and reduce their efficiency over time.

    • Ummm... actually, I believe the plutonium production reactors are mostly shut down, these days. Something about not antagonizing the 3rd world countries who we also want to shut down their enrichment programs?

      Yeah, it's better. Yeah, I wish we could have neighborhood nukes providing our electricity instead of coal fired slag pile makers, but there is something intrinsically lacking in our education system of the last 50 or so years where we can't even convince 1/2 the people that doing something to slow d

      • by jez9999 ( 618189 )

        there is something intrinsically lacking in our education system of the last 50 or so years where we can't even convince 1/2 the people that doing something to slow down global warming is a good idea.

        Oh we can, it just has to be wind or solar because they're too stupid to understand that nuclear could ever be safe.

    • by AmiMoJo ( 196126 )

      Seems rather inefficient to launch multiple RTGs, one for each robot. Maybe they could have one set up as a recharge station, but then they would have to have a complicated recharging mechanism that would be prone to failure. In fact a single failure of that charge station could scupper everything.

      Solar makes much more sense. Mirrors are cheap, there can be lots of them. They can deliver power to a wide area, or multiple areas. With a simple motor mechanism they could even move their delivery zone around. M

  • Can we put satellites in orbit of the moon?
    • by pjtp ( 533932 )

      A geosynchronous satellite around the Moon?

      It turns out that the required distance for this is outside the Moon's sphere of influence. Placing a satellite at the L1 Earth/Moon Lagrange point might work better.

    • by Trepidity ( 597 )

      Yes, the first artificial satellite to be put into lunar orbit was the Soviet Luna 10 [wikipedia.org] in 1966. There have since been a number of others, such as Japan's Selene [wikipedia.org], which orbited from 2007-2009 to do mapping and various such things. There are some oddities [nasa.gov] to low lunar orbits, though.

    • by dargaud ( 518470 )
      Yes, but not for long. Lunar orbits are inherently unstable because of the overwhelming influence of the mass of the Earth.
  • Regrettably, the efforts to Lunaform the Earth are at a more advanced stage ;-)

  • For those of use that don't speak in archaic measurement:
    https://www.google.co.uk/webhp... [google.co.uk]

    (-280F =~ -173C)

    • Convert to K. The only proper unit.
  • The answer is always no.

  • 1) this crater is interesting because it's been dark at the bottom forever, meaning it's likely that water ice has accumulated.

    2) in order to explore it, we're going to DIRECT LIGHT INTO THOSE DARK PLACES.

    I'm not a rocket scientist, but doesn't that seem just a trifle stupid?

    If you're going to need power to the rovers, wouldn't it make more sense to land a solar array OUTSIDE the crater, and then broadcast power in to the rovers?
    https://en.wikipedia.org/wiki/... [wikipedia.org]

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